Assembly for dispensing a cosmetic stick

ABSTRACT

An assembly for dispensing a cosmetic stick includes a housing base and an extracting tube for extracting the remaining portion of a cosmetic stick from another dispenser. The assembly also includes a plunger with a plunger cap that moves within the extracting tube when the housing base is rotated with respect to the extracting tube to push the cosmetic stick through the extracting tube until a portion of the cosmetic stick is exposed at a top end of the top section of the extracting tube.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of and priority to U.S. ProvisionalPatent Application Ser. No. 61/820,409, filed May 7, 2013, and entitled“APPARATUS AND METHOD TO DISPENSE A MAKEUP STICK,” the entirety of whichis incorporated herein by reference.

BACKGROUND OF THE INVENTION

The subject matter disclosed herein relates to an assembly fordispensing a cosmetic stick (e.g., lipstick, lip balm, deodorant, etc.).

A conventional dispenser for dispensing a cosmetic stick includes areceptacle into which the base portion of the cosmetic stick isinserted. The receptacle (e.g., a cup) is installed in a tubulardispenser that allows the receptacle and cosmetic stick to move upwardand downward within the tubular dispenser, enabling a portion of thecosmetic stick to be elevated beyond the top of the tubular dispenserfor application and then retracted back within the tubular dispenser forstorage.

In these conventional dispensers, the base portion of the cosmeticstick, including the portion that is inserted into and surrounded by thereceptacle, cannot be elevated beyond the top of the tubular dispenserfor application. Accordingly, that base portion of the cosmetic stickremains within the tubular dispenser and cannot be easily accessed forapplication. This results in the base portion of the cosmetic stickbeing wasted (sometimes as much as 25% to 30% of the overall length ofthe cosmetic stick).

In addition to wasting the base portion of the cosmetic stick, theconventional dispenser results in the dispenser not being available forreuse. This is especially disadvantageous when a decorative dispenser isused. In addition, the conventional dispensers are not easily cleaned ordisassembled if reuse was desired.

The discussion above is merely provided for general backgroundinformation and is not intended to be used as an aid in determining thescope of the claimed subject matter.

BRIEF DESCRIPTION OF THE INVENTION

An assembly for dispensing a cosmetic stick includes a housing base andan extracting tube for extracting the remaining portion of a cosmeticstick from another dispenser. The assembly also includes a plunger witha plunger cap that moves within the extracting tube when the housingbase is rotated with respect to the extracting tube to push the cosmeticstick through the extracting tube until a portion of the cosmetic stickis exposed at a top end of the top section of the extracting tube. Anadvantage that may be realized in the practice of some disclosedembodiments of the assembly is that the remaining and unused portions ofcosmetic sticks can be removed and then used rather than discarded andwasted.

In one embodiment, an assembly for dispensing a cosmetic stick isdisclosed. The assembly comprises a housing base comprising a housinghousing base wall forming a perimeter of the housing base, the housinghousing base wall comprising a top section, a bottom section, an innersurface, and an outer surface, a guide tube extending along alongitudinal axis of the assembly, the guide tube comprising a topsection and a bottom section, a first guide tube opening located at atop end of the top section of the guide tube, and a first guide tubeslot extending longitudinally along at least a portion of the guidetube, a housing base floor extending from the bottom section of theguide tube to the bottom section of the housing housing base wall,wherein a housing base cavity is formed between the inner surface of thehousing housing base wall, the housing base floor, and the guide tube.The assembly also comprises an extracting tube at least partiallylocated in the housing base cavity and extending along the longitudinalaxis of the assembly, the extracting tube comprising an inner surfaceand an outer surface, a top section and a bottom section, wherein theinner surface of the bottom section of the extracting tube surrounds atleast a portion of the first guide tube slot of the guide tube, and afirst guide groove extending helically along the inner surface of atleast a portion of the bottom section of the extracting tube, whereinthe extracting tube is rotatably engaged with the housing base, andwherein the extracting tube is configured to receive the cosmetic stick.The assembly further comprises a plunger at least partially surroundedby the guide tube and extending along the longitudinal axis of theassembly, the plunger comprising a plunger stem comprising a top sectionand a bottom section, wherein the bottom section of the plunger stemextends longitudinally through at least a portion of the guide tube, andwherein a top end of the top section of the plunger stem extends throughthe first guide tube opening located at the top end of the top sectionof the guide tube, a plunger cap comprising a top surface and a bottomsurface, wherein the plunger cap is located outside of the guide tube atthe top end of the top section of the plunger stem and is surrounded bythe inner surface of the top section of the extracting tube, and a firstplunger guide pin extending radially from the bottom section of theplunger stem through the first guide tube slot of the guide tube andinto the first guide groove of the extracting tube, wherein the firstplunger guide pin is configured to move within the first guide tube slotof the guide tube as the first plunger guide pin moves along the firstguide groove extending helically along the inner surface of the bottomsection of the extracting tube when the housing base is rotated withrespect to the extracting tube, and wherein the movement of the firstplunger guide pin is configured to move the plunger stem and the plungercap longitudinally within the extracting tube to push the cosmetic stickthrough the extracting tube until a portion of the cosmetic stick isexposed at a top end of the top section of the extracting tube.

In another embodiment, the assembly further comprises a housing capsurrounding at least a portion of the extracting tube, the housing capcomprising a housing cap wall forming a perimeter of the housing cap,the housing cap wall comprising a top section, a bottom section, aninner surface, and an outer surface, wherein an extracting toolreceiving opening is formed in the bottom section of the housing capwall, and an extracting tool comprising a probe stick comprising adistal section and a proximal section, and a gripping section comprisingan inner section and an outer section, wherein a gripping sectionchannel is formed between the inner section and the outer section, andwherein the gripping section channel is configured to fit and engagewith the extracting tool receiving opening formed in the bottom sectionof the housing cap wall, wherein the probe stick extends within thehousing cap from the inner section of the gripping section.

In yet another embodiment, the guide tube further comprises a secondguide tube slot extending longitudinally along at least a portion of theguide tube, the extracting tube further comprises a second guide grooveextending helically along the inner surface of at least a portion of thebottom section of the extracting tube, the plunger further comprises asecond plunger guide pin extending radially from the bottom section ofthe plunger stem through the second guide tube slot of the guide tubeand into the second guide groove of the extracting tube, the secondplunger guide pin is configured to move within the second guide tubeslot of the guide tube as the second plunger guide pin moves along thesecond guide groove extending helically along the inner surface of thebottom section of the extracting tube when the housing base is rotatedwith respect to the extracting tube, and the movement of the secondplunger guide pin is configured to move the plunger stem and the plungercap longitudinally within the extracting tube to push the cosmetic stickthrough the extracting tube until a portion of the cosmetic stick isexposed at a top end of the top section of the extracting tube.

This brief description of the invention is intended only to provide abrief overview of subject matter disclosed herein according to one ormore illustrative embodiments, and does not serve as a guide tointerpreting the claims or to define or limit the scope of theinvention, which is defined only by the appended claims. This briefdescription is provided to introduce an illustrative selection ofconcepts in a simplified form that are further described below in thedetailed description. This brief description is not intended to identifykey features or essential features of the claimed subject matter, nor isit intended to be used as an aid in determining the scope of the claimedsubject matter. The claimed subject matter is not limited toimplementations that solve any or all disadvantages noted in thebackground.

BRIEF DESCRIPTION OF THE DRAWINGS

So that the manner in which the features of the invention can beunderstood, a detailed description of the invention may be had byreference to certain embodiments, some of which are illustrated in theaccompanying drawings. It is to be noted, however, that the drawingsillustrate only certain embodiments of this invention and are thereforenot to be considered limiting of its scope, for the scope of theinvention encompasses other equally effective embodiments. The drawingsare not necessarily to scale, emphasis generally being placed uponillustrating the features of certain embodiments of the invention. Inthe drawings, like numerals are used to indicate like parts throughoutthe various views. Thus, for further understanding of the invention,reference can be made to the following detailed description, read inconnection with the drawings in which:

FIG. 1 is an exploded view of an exemplary dispensing assembly;

FIGS. 2A-2C are perspective (2A), side (2B), and top (2C) views of theexemplary dispensing assembly of FIG. 1;

FIGS. 3A and 3B are cross-sectional views of the exemplary dispensingassembly of FIGS. 1 and 2 as assembled;

FIGS. 4A-4F are perspective (4A), side (4B, 4C), cross-sectional (4D),top (4E), and bottom (4F) views of an exemplary housing base of theexemplary dispensing assembly of FIGS. 1-3B;

FIGS. 5A-5D are perspective (5A), side (5B), cross-sectional (5C), andbottom (5D) views of an exemplary extracting tube of the exemplarydispensing assembly of FIGS. 1-3B;

FIGS. 6A and 6B are perspective (6A) and side (6B) views of an exemplaryplunger of the exemplary dispensing assembly of FIGS. 1-3B;

FIGS. 7A-7C are perspective (7A), side (7B), and cross-sectional (7C)views of an exemplary plunger cap of the exemplary dispensing assemblyof FIGS. 1-3B;

FIGS. 8A-8C are perspective (8A), side (8B), and cross-sectional (8C)views of an exemplary housing cap of the exemplary dispensing assemblyof FIGS. 1-3B; and

FIGS. 9A-9E are perspective (9A), back (9B), front (9C), side (9D), andcross-sectional (9E) views of an exemplary extracting tool of theexemplary dispensing assembly of FIGS. 1-3B.

DETAILED DESCRIPTION OF THE INVENTION

An assembly for dispensing a cosmetic stick is disclosed. The assemblyincludes a housing base and an extracting tube for extracting theremaining portion of a cosmetic stick from another dispenser. Theassembly also includes a plunger with a plunger cap that moves withinthe extracting tube when the housing base is rotated with respect to theextracting tube to push the cosmetic stick through the extracting tubeuntil a portion of the cosmetic stick is exposed at a top end of the topsection of the extracting tube. An advantage that may be realized in thepractice of some disclosed embodiments of the assembly is that theremaining and unused portions of cosmetic sticks can be removed and thenused rather than discarded and wasted.

FIG. 1 is an exploded view of an exemplary dispensing assembly 10. FIGS.2A-2C are perspective, side, and top views of the exemplary dispensingassembly 10 of FIG. 1. In one embodiment, the dispensing assembly 10includes a housing base 100 (FIGS. 4A-4F), a housing cap 200 (FIGS.8A-8C), an extracting tool 300 (FIGS. 9A-9E), an extracting tube 400(FIGS. 5A-5D), a plunger 500 (FIGS. 6A-6B), and a housing base label700. Although the dispensing assembly 10 is shown as a cylindricalstructure with several cylindrical components, it will be understoodthat other shapes may be used, including square, ovular, etc. In oneembodiment, the dispensing assembly is made of Acrylonitrile Butadiene(ABS) plastic. It will be understood that other materials can also beused.

As best shown in FIGS. 3A-4D, the housing base 100 includes a housinghousing base wall 110 forming a perimeter of the housing base 100. Thehousing base wall 110 includes a top section 101, a bottom section 102,an inner surface 111, and an outer surface 112. It will be understoodthat any location or direction references herein to, e.g., “top,”“bottom,” “up,” or “down,” are made to facilitate explanation andunderstanding of the invention and are in reference to the figures,which show the dispensing assembly 10 right-side up. The housing base100 also includes a guide tube 120 extending along a longitudinal axis20 of the dispensing assembly 10. The guide tube 120 guides the plunger500 (FIGS. 6A-6B) as the plunger 500 moves up and down within thedispensing assembly 10. The guide tube 120 includes a top section 121and a bottom section 122. A first guide tube opening 126 is located at atop end of the top section 121 of the guide tube 120. In one embodiment,the guide tube 120 further includes a second guide tube opening 119located at a bottom end of the bottom section 122 of the guide tube 120.The guide tube 120 also includes a first guide tube slot 123 extendinglongitudinally along at least a portion of the guide tube 120 and asecond guide tube slot 124 extending longitudinally along at least aportion of the guide tube 120. In one embodiment, the second guide tubeslot 124 is diametrically opposed to the first guide tube slot 123. Itwill be understood that a different number of guide slots can be used inother embodiments, including only one guide slot.

The housing base 100 also includes a housing base floor 114 extendingfrom the bottom section 122 of the guide tube 120 to the bottom section102 of the housing base wall 110. As shown in FIGS. 4E and 4F, thehousing base floor 114 can include a plurality of openings 116 along theperimeter of the housing base floor 114. A housing base cavity 115 isformed between the inner surface 111 of the housing base wall 110, thehousing base floor 114, and the guide tube 120. In one embodiment, thehousing base 100 further includes a plurality of retention tabs 113extending from the inner surface 111 of the bottom section 102 of thehousing base wall 110 of the housing base 100. As will be explained,these retention tabs 113 rotatably engage the extracting tube 400. Inone embodiment, a housing base label 700 or other device can beinstalled onto the bottom of the housing assembly 10 that can, e.g., beused for displaying the brand name of the dispensing assembly 10.

In one embodiment, the housing base 100 further includes a plunger slot118 located in the housing base floor 114 and aligned with the secondguide tube opening 119. The first guide tube slot 123 and the secondguide tube slot 124 can extend longitudinally along at least a portionof the guide tube 120 to the bottom end of the bottom section 122 of theguide tube 120. In this configuration shown in FIGS. 3A and 3B, theplunger slot 118, the first guide tube slot 123, and the second guidetube slot 124 are configured to receive the plunger 500 inserted throughthe housing base floor 114 of the housing base 100.

As best shown in FIGS. 3A-3B and 5A-5D, the extracting tube 400 ispartially located in the housing base cavity 115 and extends along thelongitudinal axis 20 of the dispensing assembly 10. The extracting tube400 is configured to receive a cosmetic stick by, e.g., being insertedinto another cosmetic stick dispenser and at least partially surroundingthe unused portion of the cosmetic stick. For example, the extractingtube space 430, which includes a top space section 431 and a bottomspace section 432, can create a suction or other vacuum force when theextracting tube 400 surrounds the cosmetic stick, allowing theextracting tube 400 to extract some or all of the unused portion of thecosmetic stick from the other dispenser. In one embodiment, the top endof the top section 441 of the extracting tube 400 includes a taperededge 443 to facilitate insertion into and extraction of the cosmeticstick from the other dispenser.

The extracting tube 400 includes an inner surface 445 and an outersurface 446, and a top section 441 and a bottom section 442. As shown inFIGS. 3A and 3B, the inner surface 445 of the bottom section 442 of theextracting tube 400 surrounds a portion of the first guide tube slot 123and the second guide tube slot 124 of the guide tube 120. A first guidegroove 451 extends helically along the inner surface 445 of at least aportion of the bottom section 442 of the extracting tube 400, while asecond guide groove 452 extends helically along the inner surface 445 ofat least a portion of the bottom section 442 of the extracting tube 400.In one embodiment, the second guide groove 452 is diametrically opposedto the first guide groove 451. It will be understood that a differentnumber of guide grooves can be used in other embodiments, including onlyone guide groove.

The extracting tube 400 further includes a retention flange 410extending radially from the bottom section 442 of the extracting tube400. As shown in FIG. 3A, the plurality of retention tabs 113 of thehousing base 100 are configured to rotatably engage the retention flange410, allowing the extracting tube 400 to rotate with respect to thehousing base 100. Accordingly, the extracting tube 400 is rotatablyengaged with the housing base 100.

As best shown in FIGS. 3A, 3B, an 5C, in one embodiment, the innerdiameter (D1) of the inner surface 445 of the top section 441 of theextracting tube 400 is greater than inner diameter (D2) of the innersurface 445 of the bottom section 442 of the extracting tube 400. A stopledge 447 is formed between the inner surface 445 of the top section 441of the extracting tube 400 and the inner surface 445 of the bottomsection 442 of the extracting tube 400. As shown in FIG. 3A, the stopledge 447 is configured to prevent the plunger cap 600 from entering thebottom section 442 of the extracting tube 400. For example, if the innerdiameter of the stop ledge 447 is less than the outer diameter (D4) ofbottom surface 612 of the plunger cap 600 (FIG. 7B), the plunge cap 600cannot enter the bottom section 442 of the extracting tube 400. The stopledge 447 can therefore prevent the bottom section 512 of the plunger500 (FIGS. 3A-3B and 6A-6B) from exiting the bottom of the dispensingassembly 10.

In one embodiment, the extracting tube 400 also includes a housing capretention ring 420. A channel 421 is formed in the housing cap retentionring 420. As shown in FIGS. 3A and 3B, the housing cap retention ring420 includes a retention lip 421 configured to fit and engage withretention protrusion 230 of the housing cap 200 (FIGS. 8B and 8C) todetachably attach the housing cap 200 to the extracting tube 400. Asused herein, the term detachably attach refers to engagement that isdesigned to be released when normal pressure is applied by hand by auser to disengage two components.

As best shown in FIGS. 3A-3B and 6A-6B, the plunger 500 is at leastpartially surrounded by the guide tube 120 and extends along thelongitudinal axis 20 of the dispensing assembly 10. The plunger 500includes a plunger stem 510 including a top section 511 and a bottomsection 512. The bottom section 512 of the plunger stem 510 extendslongitudinally through at least a portion of the guide tube 120. The topend of the top section 511 of the plunger stem 510 extends through thefirst guide tube opening 126 located at the top end of the top section121 of the guide tube 120. In one embodiment, a first plunger guide pin531 extends radially from the bottom section 512 of the plunger stem 510through the first guide tube slot 123 of the guide tube 120 and into thefirst guide groove 451 of the extracting tube 400. A second plungerguide pin 532 extends radially from the bottom section 512 of theplunger stem 510 through the second guide tube slot 124 of the guidetube 120 and into the second guide groove 452 of the extracting tube400. In one embodiment, the second plunger guide pin 532 isdiametrically opposed to the first plunger guide pin 531. It will beunderstood that a different number of guide pins can be used in otherembodiments, including only one guide pin.

In one embodiment, when the housing base 100 is rotated with respect tothe extracting tube 400, the first plunger guide pin 531 is configuredto move within the first guide tube slot 123 of the guide tube 120 asthe first plunger guide pin 531 moves along the first guide groove 451extending helically along the inner surface 445 of the bottom section442 of the extracting tube 400. Similarly, when the housing base 100 isrotated with respect to the extracting tube 400, the second plungerguide pin 532 is configured to move within the second guide tube slot124 of the guide tube 120 as the second plunger guide pin 532 movesalong the second guide groove 452 extending helically along the innersurface 445 of the bottom section 442 of the extracting tube 400.

As best shown in FIGS. 3A-3B and 7A-7C, a plunger cap 600 includes a topsurface 611, a bottom surface 612, and a side surface 620 connecting thetop surface 611 and the bottom surface 612. The plunger cap 600 islocated outside of the guide tube 120 at the top end of the top section511 of the plunger stem 510 and is surrounded by the inner surface 445of the top section 441 of the extracting tube 400. The movement of thefirst plunger guide pin 531 and the second plunger guide pin 532 isconfigured to move the plunger stem 510 and the plunger cap 600longitudinally within the extracting tube 400 to push the cosmetic stickthrough the extracting tube 400 until a portion of the cosmetic stick isexposed at a top end of the top section 441 of the extracting tube 400.The top surface 611 of the plunger cap 600 can be substantially flushwith a top edge 444 of the top section 441 of the extracting tube 400when the housing base 100 is rotated (e.g., at a maximum) with respectto the extracting tube 400. This eliminates any unused or inaccessibleportions of the cosmetic stick.

In one embodiment, in order to ensure that most or all of the cosmeticstick is pushed through the extracting tube 400, the outer diameter (D3)of the top surface 611 of plunger cap 600 is in the range of only 0.1 mmto 0.5 mm less than the inner diameter (D1) of the inner surface 445 ofthe top section 441 of the extracting tube 400 as shown in FIGS. 3A, 3B,5C, and 7B. In one embodiment, the outer diameter (D3) of the topsurface 611 of plunger cap 600 is 0.2 mm less than the inner diameter(D1) of the inner surface 445 of the top section 441 of the extractingtube 400.

In one embodiment, the plunger cap 600 can be integrally attached to theplunger stem 510. In another embodiment and as shown in the figures, theplunger cap 600 is detachably attached to the top section 511 of theplunger stem 510 using, e.g., a snap fit connection. A shown in FIG. 6B,the top end of the top section 511 of the plunger stem 510 can include aretention protrusion 520 atop a tapered neck 522 that extends from theplunger stem 510. The interface between the retention protrusion 520 andthe tapered neck 522 forms a retention edge 523 for securing the plungercap 600. The retention protrusion 520 of the plunger 500 also includes aramped surface 524 that engages the ramped surface 645 of the plungercap 600 (as shown in FIGS. 3A, 3B, and 7C). In order to receive theretention protrusion 520 of the plunger 500, the plunger cap 600includes an opening 630 made up of a top opening 631 and a bottomopening 632 with a step 633 formed between the two openings. In oneembodiment, an inner ring 640 is formed on the bottom surface 612 of theplunger cap 600 and receives the retention protrusion 520. An annularspace 644 formed between the inner ring 640 and an outer ring 644 on thebottom surface 612 of the plunger cap 600 allows the plunger cap 600 tosnap fit over the retention protrusion 520, causing the step 633 of theplunger cap 600 to engage with the retention edge 523 of the plunger 500as shown in FIGS. 3A, 3B, 6B, and 7C.

As best shown in FIGS. 3A-3B and 8A-8C, a housing cap 200 surrounds atleast a portion of the extracting tube 400. The housing cap 200 includesa housing cap wall 215 forming a perimeter of the housing cap 200. Thehousing cap wall 215 includes a top section 211, a bottom section 212,an inner surface 213, and an outer surface 214. A housing cap top 240sits atop the housing cap and is supported by a plurality of supportribs 241 attached to the inner surface 213 of the housing cap wall 215.An extracting tool receiving opening 220 is formed in the bottom section212 of the housing cap wall 215. The extracting tool receiving opening220 further includes a first groove 221 and a second groove 222 forengaging with the extracting tool 300.

As best shown in FIGS. 3A-3B and 9A-9E, an extracting tool 300 includesa probe stick 310 including a distal section 311 and a proximal section312, and a gripping section 350 including an inner section 320 and anouter section 330. The extracting tool 300 can be used to extract any ofthe unused portion of the cosmetic stick from the other dispenserremaining after extraction by the extracting tube 400. In oneembodiment, a gripping section channel 340 is formed between the innersection 320 and the outer section 330 of the gripping section 350. Thegripping section channel 340 is configured to fit and engage with theextracting tool receiving opening 220 formed in the bottom section 212of the housing cap wall 215. For example, the gripping section channel340 further includes a first retention protrusion 341 and a secondretention protrusion 342. The first groove 221 of the extracting toolreceiving opening 220 of the housing cap 200 is configured to fit andengage with the first retention protrusion 341, while the second groove222 is configured to fit and engage with the second retention protrusion342 to detachably attach the extracting tool 300 to the housing cap 200.Once assembled together, the probe stick 310 of the extracting tool 300conveniently extends within the housing cap 200 from the inner section320 of the gripping section 350.

In one embodiment, since several of the components are detachableattached to each other, the components can be detached and cleaned,including cleaned in a dishwasher if suitable materials are used for theconstruction of the dispensing assembly 10.

This written description uses examples to disclose the invention,including the best mode, and also to enable any person skilled in theart to practice the invention, including making and using any devices orsystems and performing any incorporated methods. The patentable scope ofthe invention is defined by the claims, and may include other examplesthat occur to those skilled in the art. Such other examples are intendedto be within the scope of the claims if they have structural elementsthat do not differ from the literal language of the claims, or if theyinclude equivalent structural elements with insubstantial differencesfrom the literal language of the claims.

What is claimed is:
 1. An assembly for dispensing a cosmetic stick, theassembly comprising: a housing base comprising a housing base wallforming a perimeter of the housing base, the housing base wallcomprising a top section, a bottom section, an inner surface, and anouter surface, a guide tube extending along a longitudinal axis of theassembly, the guide tube comprising a top section and a bottom section,a first guide tube opening located at a top end of the top section ofthe guide tube, and a first guide tube slot extending longitudinallyalong at least a portion of the guide tube, a housing base floorextending from the bottom section of the guide tube to the bottomsection of the housing base wall, wherein a housing base cavity isformed between the inner surface of the housing base wall, the housingbase floor, and the guide tube; an extracting tube at least partiallylocated in the housing base cavity and extending along the longitudinalaxis of the assembly, the extracting tube comprising an inner surfaceand an outer surface, a top section and a bottom section, wherein theinner surface of the bottom section of the extracting tube surrounds atleast a portion of the first guide tube slot of the guide tube, and afirst guide groove extending helically along the inner surface of atleast a portion of the bottom section of the extracting tube, whereinthe extracting tube is rotatably engaged with the housing base, andwherein the extracting tube is configured to receive the cosmetic stick;and a plunger at least partially surrounded by the guide tube andextending along the longitudinal axis of the assembly, the plungercomprising a plunger stem comprising a top section and a bottom section,wherein the bottom section of the plunger stem extends longitudinallythrough at least a portion of the guide tube, and wherein a top end ofthe top section of the plunger stem extends through the first guide tubeopening located at the top end of the top section of the guide tube, aplunger cap comprising a top surface and a bottom surface, wherein theplunger cap is located outside of the guide tube at the top end of thetop section of the plunger stem and is surrounded by the inner surfaceof the top section of the extracting tube, and a first plunger guide pinextending radially from the bottom section of the plunger stem throughthe first guide tube slot of the guide tube and into the first guidegroove of the extracting tube, wherein the first plunger guide pin isconfigured to move within the first guide tube slot of the guide tube asthe first plunger guide pin moves along the first guide groove extendinghelically along the inner surface of the bottom section of theextracting tube when the housing base is rotated with respect to theextracting tube, and wherein the movement of the first plunger guide pinis configured to move the plunger stem and the plunger caplongitudinally within the extracting tube to push the cosmetic stickthrough the extracting tube until a portion of the cosmetic stick isexposed at a top end of the top section of the extracting tube.
 2. Theassembly of claim 1, further comprising: a housing cap surrounding atleast a portion of the extracting tube, the housing cap comprising ahousing cap wall forming a perimeter of the housing cap, the housing capwall comprising a top section, a bottom section, an inner surface, andan outer surface, wherein an extracting tool receiving opening is formedin the bottom section of the housing cap wall, and an extracting toolcomprising a probe stick comprising a distal section and a proximalsection, and a gripping section comprising an inner section and an outersection, wherein a gripping section channel is formed between the innersection and the outer section, and wherein the gripping section channelis configured to fit and engage with the extracting tool receivingopening formed in the bottom section of the housing cap wall, whereinthe probe stick extends within the housing cap from the inner section ofthe gripping section.
 3. The assembly of claim 2, wherein the extractingtool receiving opening further comprises a first groove, the grippingsection channel further comprises a first retention protrusion, and thefirst groove is configured to fit and engage with the first retentionprotrusion to detachably attach the extracting tool to the housing cap.4. The assembly of claim 1, wherein the housing base further comprises aplurality of retention tabs extending from the inner surface of thebottom section of the housing base wall of the housing base, theextracting tube further comprises a retention flange extending radiallyfrom the bottom section of the extracting tube, and the plurality ofretention tabs are configured to rotatably engage the retention flange.5. The assembly of claim 1, wherein the guide tube further comprises asecond guide tube opening located at a bottom end of the bottom sectionof the guide tube, the housing base further comprises a plunger slotlocated in the housing base floor and aligned with the second guide tubeopening, the first guide tube slot extends longitudinally along at leasta portion of the guide tube to the bottom end of the bottom section ofthe guide tube, and the plunger slot and the first guide tube slot areconfigured to receive the plunger inserted through the housing basefloor of the housing base.
 6. The assembly of claim 1, wherein the topend of the top section of the extracting tube comprises a tapered edge.7. The assembly of claim 1, wherein the assembly is configured so thatthe top surface of the plunger cap can be substantially flush with a topedge of the top section of the extracting tube when the housing base isrotated with respect to the extracting tube.
 8. The assembly of claim 1,wherein the plunger cap is detachably attached to the top section of theplunger stem.
 9. The assembly of claim 1, wherein the outer diameter ofthe top surface of plunger cap is in the range of 0.1 mm to 0.5 mm lessthan the inner diameter of the inner surface of the top section of theextracting tube.
 10. The assembly of claim 9, wherein the outer diameterof the top surface of plunger cap is 0.2 mm less than the inner diameterof the inner surface of the top section of the extracting tube.
 11. Theassembly of claim 1, wherein the inner diameter of the inner surface ofthe top section of the extracting tube is greater than inner diameter ofthe inner surface of the bottom section of the extracting tube.
 12. Theassembly of claim 11, wherein a stop ledge is formed between the innersurface of the top section of the extracting tube and the inner surfaceof the bottom section of the extracting tube, and the stop ledge isconfigured to prevent the plunger cap from entering the bottom sectionof the extracting tube.
 13. The assembly of claim 1, wherein the guidetube further comprises a second guide tube slot extending longitudinallyalong at least a portion of the guide tube, the extracting tube furthercomprises a second guide groove extending helically along the innersurface of at least a portion of the bottom section of the extractingtube, the plunger further comprises a second plunger guide pin extendingradially from the bottom section of the plunger stem through the secondguide tube slot of the guide tube and into the second guide groove ofthe extracting tube, the second plunger guide pin is configured to movewithin the second guide tube slot of the guide tube as the secondplunger guide pin moves along the second guide groove extendinghelically along the inner surface of the bottom section of theextracting tube when the housing base is rotated with respect to theextracting tube, and the movement of the second plunger guide pin isconfigured to move the plunger stem and the plunger cap longitudinallywithin the extracting tube to push the cosmetic stick through theextracting tube until a portion of the cosmetic stick is exposed at atop end of the top section of the extracting tube.
 14. The assembly ofclaim 13, wherein the second guide tube slot is diametrically opposed tothe first guide tube slot, the second guide groove is diametricallyopposed to the first guide groove, and the second plunger guide pin isdiametrically opposed to the first plunger guide pin.
 15. An assemblyfor dispensing a cosmetic stick, the assembly comprising: a housing basecomprising a housing base wall forming a perimeter of the housing base,the housing base wall comprising a top section, a bottom section, aninner surface, and an outer surface, a guide tube extending along alongitudinal axis of the assembly, the guide tube comprising a topsection and a bottom section, a first guide tube opening located at atop end of the top section of the guide tube, a first guide tube slotextending longitudinally along at least a portion of the guide tube, anda second guide tube slot extending longitudinally along at least aportion of the guide tube, a housing base floor extending from thebottom section of the guide tube to the bottom section of the housingbase wall, wherein a housing base cavity is formed between the innersurface of the housing base wall, the housing base floor, and the guidetube; an extracting tube at least partially located in the housing basecavity and extending along the longitudinal axis of the assembly, theextracting tube comprising an inner surface and an outer surface, a topsection and a bottom section, wherein the inner surface of the bottomsection of the extracting tube surrounds at least a portion of the firstguide tube slot and the second guide tube slot of the guide tube, afirst guide groove extending helically along the inner surface of atleast a portion of the bottom section of the extracting tube, and asecond guide groove extending helically along the inner surface of atleast a portion of the bottom section of the extracting tube, whereinthe extracting tube is rotatably engaged with the housing base, andwherein the extracting tube is configured to receive the cosmetic stick;a plunger at least partially surrounded by the guide tube and extendingalong the longitudinal axis of the assembly, the plunger comprising aplunger stem comprising a top section and a bottom section, wherein thebottom section of the plunger stem extends longitudinally through atleast a portion of the guide tube, and wherein a top end of the topsection of the plunger stem extends through the first guide tube openinglocated at the top end of the top section of the guide tube, a plungercap comprising a top surface and a bottom surface, wherein the plungercap is located outside of the guide tube at the top end of the topsection of the plunger stem and is surrounded by the inner surface ofthe top section of the extracting tube, a first plunger guide pinextending radially from the bottom section of the plunger stem throughthe first guide tube slot of the guide tube and into the first guidegroove of the extracting tube, and a second plunger guide pin extendingradially from the bottom section of the plunger stem through the secondguide tube slot of the guide tube and into the second guide groove ofthe extracting tube, wherein the first plunger guide pin is configuredto move within the first guide tube slot of the guide tube as the firstplunger guide pin moves along the first guide groove extending helicallyalong the inner surface of the bottom section of the extracting tubewhen the housing base is rotated with respect to the extracting tube,the second plunger guide pin is configured to move within the secondguide tube slot of the guide tube as the second plunger guide pin movesalong the second guide groove extending helically along the innersurface of the bottom section of the extracting tube when the housingbase is rotated with respect to the extracting tube, and wherein themovement of the first plunger guide pin and the second plunger guide pinis configured to move the plunger stem and the plunger caplongitudinally within the extracting tube to push the cosmetic stickthrough the extracting tube until a portion of the cosmetic stick isexposed at a top end of the top section of the extracting tube; ahousing cap surrounding at least a portion of the extracting tube, thehousing cap comprising a housing cap wall forming a perimeter of thehousing cap, the housing cap wall comprising a top section, a bottomsection, an inner surface, and an outer surface, wherein an extractingtool receiving opening is formed in the bottom section of the housingcap wall, and an extracting tool comprising a probe stick comprising adistal section and a proximal section, and a gripping section comprisingan inner section and an outer section, wherein a gripping sectionchannel is formed between the inner section and the outer section, andwherein the gripping section channel is configured to fit and engagewith the extracting tool receiving opening formed in the bottom sectionof the housing cap wall, wherein the probe stick extends within thehousing cap from the inner section of the gripping section.